KR102084650B1 - Smart data acquisition system with router for health, safety, environment management - Google Patents

Abstract

The present invention relates to a smart DAS with a router function for HSE (health, safety, and environment) management of a workplace. Specifically, by implementing wired or wireless communication with each advantage and disadvantage depending on conditions, the present invention solves the problem of limitations such as complicated and difficult system implementation conditions and the like according to an acquired data level in the construction of IoT communication due to the support of only one connection method. In particular, data with a short reach distance of data transmission is used to collect sensor data by using Zigbee. The data with a relatively long reach distance is transmitted to a final data destination (monitoring server) by using Wi-Fi and LoRaWan. In addition, by designing the concept of primary communication and secondary communication for Wi-Fi and LoRaWan, communication can be switched when an error occurs in communication.

Description

Smart DAS with router function for HSE management in the workplace {SMART DATA ACQUISITION SYSTEM WITH ROUTER FOR HEALTH, SAFETY, ENVIRONMENT MANAGEMENT}

The present invention relates to a smart DAS having a router function for managing HSE (HEALTH, SAFETY, ENVIRONMENT) of a workplace.

Specifically, by implementing the wired or wireless communication having the advantages and disadvantages according to the conditions, only the conventional Chinese magnetic connection method is supported, so the implementation conditions of the system according to the acquisition data level becomes complicated and difficult, such as IoT communication construction To overcome the limitations of the problem,

In particular, data with shorter reach of data transmission is used to collect data of sensor by using Zigbee, and long reach data is used for Wi-Fi and LoRaWan. To send the data to the final destination (monitoring server),

In addition, by designing the concept of the main communication and sub-communication for Wi-Fi and LoRaWan, if the communication error occurs, the communication can be switched, HSE (HEALTH, It relates to a smart DAS having a router function for managing SAFETY, ENVIRONMENT).

As industrial activities become more active, various types and materials are used, and the dependence on the industry increases, the frequency of use of toxic gases in the production process is increasing, and workers are often exposed to toxic gases. Concerns are also growing. Accordingly, the related environmental industry is growing rapidly.

In addition, there are a number of risk factors in these industrial sites. Even if a safe work based on safety rules is induced, the worker may be exposed to a dangerous environment without knowing it.

Therefore, in the industrial site to prevent accidents by wearing safety equipment, safety equipment is only to protect the worker in the event of an accident, it can not prevent the accident.

Such accidents should be monitored by managers at the workplace, but even managers have to focus on various tasks.

Accordingly, technologies for monitoring the environment of the workplace as well as the workers have been developed.

Since the workshops are diverse, such as shipyard yards, heavy industry factories, petrochemical plants, LNG processing facilities, building cantilever sites, tunnel construction sites, and closed or closed areas, the types of instruments used to monitor the environment of the workplaces are also diverse. And the number is myriad.

Therefore, there is an urgent need to develop a technology capable of acquiring and integrating all such measurement information.

In addition, in the existing monitoring technology, in order to attach various IoT devices because the gateway or the DAS is connected only by wire or wireless, it is difficult to implement an active system according to the acquisition data level for construction, and rebuild various information. And other restrictions.

Typically, since only one communication method such as Wi-Fi or Bluetooth is supported, it is quite difficult to take data of various IoT devices and send the data to a destination server.

In addition, each communication method has its advantages and disadvantages, but if you want to take advantage of the advantages to configure the network, there is a problem to add a data conversion device or increase the interface because it must be integrated into one communication method.

However, it is expected that this problem can be overcome by developing a DAS that allows the integration of multiple communication schemes for the first time and includes a conversion scheme that can make these communication standards consistent.

On the other hand, Patent Publication No. 10-1999-0061793 discloses an information communication method using a dozen (DAS).

The information communication method using the DAS according to the above technique comprises the steps of: setting basic variables in DAS operation; Transmitting a ready signal for executing the DAS operation program to a predetermined executable file and then waiting for recognition; Determining if there is a predetermined message; If there is no message, continuously checking whether there is a message, and if there is a message, downloading an offset and port command; Generating a task, a queue, a scan task table and a DAS frame for communication; Putting a transmission buffer into the message and transmitting it to the queue; Processing as TMO, return and default if return is good and processing as a reception error if not good; Initializing a scan period and copying transmission data to a transmission frame and transmitting the same to a DAS slave; Waiting for data reception from the DAS slave if the data transmission state is good, and treating it as an equipment task failure if it is not good; If the data reception state is good, TMO, receive / acknowledge, return, and default process, and if not, process as reception error.

In addition, Patent Publication No. 10-2019-0117693 describes the routing of aggregation carriers in a DAS.

The technique relates to a digital distributed antenna system (DAS) and a method for routing aggregated carriers performed in a digital DAS.

A method performed by digital DAS 300 is provided for routing aggregated carriers received by at least one digital master unit 301 of the DAS to at least one remote unit 304 of the DAS.

The method includes identifying the received aggregate carriers to be transmitted to a wireless communication device located in a coverage area serviced by the at least one digital remote unit 304 (S101), and the carriers transmitting to the wireless communication device. Routing the identified aggregate carriers through the DAS 300 to be transmitted to the at least one digital remote unit 304 for purposes of implementation.

Publication No. 10-1999-0061793 (Jul. 26, 1999) Publication No. 10-2019-0117693 (2019.10.16.) Publication No. 10-2013-0142965 (2013.12.30.) Published Patent Publication No. 10-2019-0089036 (2019.07.29.)

An object of the present invention is to implement the wired or wireless communication having the advantages and disadvantages according to the conditions, only the conventional Chinese magnetic connection method is supported so that the implementation conditions of the system according to the acquisition data level is complicated and difficult to establish IoT communication To overcome the problem of limitations,

In particular, data with shorter reach of data transmission is used to collect data of sensor by using Zigbee, and long reach data is used for Wi-Fi and LoRaWan. To send the data to the final destination (monitoring server),

In addition, by designing the concept of the main communication and sub-communication for Wi-Fi and LoRaWan, if the communication error occurs, the communication can be switched, HSE (HEALTH, SAFETY, ENVIRONMENT) is to provide a smart DAS with a router function for management.

In order to achieve the above object, a smart DAS having a router function for HSE management of a workplace according to the present invention,

In the DAS that receives and acquires the measurement information from the measuring instrument for environmental management of the workplace, and transmits the acquired measurement information to the server,

The communication with the instrument is performed based on Zigbee,

Communication with the server is performed based on Wi-Fi and LoRa,

While the main communication is used for communication with the server, if an error occurs in the main communication, the sub communication is used.

At this time, the DAS,

A communication unit including a Zigbee communication module for communicating with the meter, a Wi-Fi communication module for communicating with the server, and a LoRa communication module for communicating with the server; And

And A / D conversion unit for converting the measurement information received from the measuring instrument from the analog format to the digital format.

In addition, the DAS,

In the communication with the server, characterized in that it further comprises a communication switching unit for switching the main communication to the sub-communication in accordance with the communication error.

According to the smart DAS having a router function for HSE management of a workplace according to the present invention,

By implementing wired or wireless communication with the advantages and disadvantages according to the conditions, only the conventional Chinese magnetic connection method is supported. Therefore, the implementation conditions of the system were complicated and difficult according to the acquired data level when establishing IoT communication. You can overcome the problem.

In addition, the present invention is used to collect the data of the sensor by using a Zigbee (short distance of data transmission), the data with a relatively long reach is Wi-Fi and Laura communication ( LoRaWan) to be transmitted to the data final destination (monitoring server),

By designing the concept of the main communication and the sub-communication for the Wi-Fi and LoRaWan, if an error occurs in the communication, it is possible to switch the communication, so that coping with the communication error is effective Has the advantage to be made to be.

1 is a diagram showing an example of the provision of a smart DAS with a router function for HSE management of a workplace according to the present invention.
2 is a diagram illustrating communication of a smart DAS having a router function for HSE management of a workplace according to the present invention.

The terms or words used in this specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors can appropriately define the concept of terms in order to best describe their invention. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the matters described in the embodiments and drawings described herein are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, and various equivalents may be substituted for them at the time of the present application. It should be understood that there may be water and variations.

Before describing the present invention with reference to the drawings, it is not shown or specifically described for the matters that are not necessary to reveal the gist of the present invention, that is, can be obviously added to those skilled in the art. Make a note.

The present invention relates to a smart DAS having a router function for managing HSE (HEALTH, SAFETY, ENVIRONMENT) of a workplace.

Specifically, by implementing the wired or wireless communication having the advantages and disadvantages according to the conditions, only the conventional Chinese magnetic connection method is supported, so the implementation conditions of the system according to the acquisition data level becomes complicated and difficult, such as IoT communication construction To overcome the limitations of the problem,

In particular, data with shorter reach of data transmission is used to collect data from the sensor by using Zigbee, and long reach data using Wi-Fi and LoRaWan. To send the data to the final destination (monitoring server),

In addition, by designing the concept of the main communication and sub-communication for Wi-Fi and LoRaWan, if the communication error occurs, the communication can be switched, HSE (HEALTH, It relates to a smart DAS having a router function for managing SAFETY, ENVIRONMENT).

Hereinafter, the present invention described above will be described with reference to FIGS. 1 and 2 of the accompanying drawings.

1 is a view showing an example of the smart DAS having a router function for the HSE management of the workplace according to the present invention, Figure 2 is a communication of the smart DAS with a router function for HSE management of the workplace according to the present invention It is a figure explaining.

Prior to the description, it is obvious that the DAS may include a control unit for performing the control function described herein to describe the present invention.

First, the DAS according to the present invention is installed on one side of an operator, receives measurement information from a measuring instrument (not shown in the drawing) installed in the workplace, converts the received analog data into digital data having the same standard as shown in FIG. Transfers to DB (Monitoring Server).

The meter includes all the instruments on which the HSE (HEALTH, SAFETY, ENVIRONMENT) of the workplace is based.

At this time, as shown in FIG. 2 of the accompanying drawings, the measuring instrument installed in the workplace transmits the measured value through the sensing for each cycle to the DAS, the communication between the measuring instrument and the DAS is to be performed based on Zigbee communication.

In addition, the DAS receiving the measurement information of the instrument to transmit to the DB (monitoring server) based on the Wi-Fi and LoRa communication.

To this end, the DAS, a communication unit; And an A / D conversion unit, and the communication unit includes a Zigbee communication module, a Wi-Fi communication module, and a LoRa communication module.

The communication unit receives the measurement information from the measuring instrument through the Zigbee communication module, and communicates with the DB (monitoring server) through the Wi-Fi communication module and LoRa communication module.

Since the measurement information of the measuring instrument received through the Zigbee communication module is analog data, the DAS may further include an A / D conversion unit for converting the measurement information in the analog format to a digital format.

Therefore, the data transmitted to the DB by communicating with the DB (monitoring server) through the Wi-Fi communication module and LoRa communication module of the communication unit is the data converted into a digital format through the A / D conversion unit.

On the other hand, the above-described DB, that is, the monitoring server may be configured to output a response signal to the reception when receiving data from the DAS.

At this time, the DAS further includes a response signal receiving unit to receive a response signal of the monitoring server. The DAS further performs a function of determining whether there is a response signal received from the monitoring server through the response signal receiver for a predetermined time after transmitting data to the monitoring server through the communication unit, which further includes a response signal reception determining unit in the DAS. To function.

And if the response signal is not received from the monitoring server through the response signal receiving determination unit, it means that the communication between the DAS and the monitoring server is not properly performed, and serves to switch the communication.

To this end, it may further include a communication switching unit, the communication switching unit is to switch to the communication to the sub-communication instead of the main communication the first communication between the DAS and the monitoring server, for example, if the LoRA communication was the main communication, If there is an error, the communication method is switched to Wi-Fi communication.

On the other hand, the DAS according to the present invention in order to use the Wi-fi communication and LoRa communication described above may be configured as shown in Table 1.

As shown in Table 1, the DAS according to the present invention forms a recessed portion formed on one surface of a predetermined box shape. And the support is formed in the groove, the upper surface of the support may be any one of the Wi-Fi communication module or LoRa communication module.

And, as shown in the lower side of Table 1, the cover and the support is located on the upper side of the base, the upper side of the cover and the base, the other one of the Wi-Fi communication module or LoRa communication module can be installed. have.

Therefore, the height of the groove portion of the DAS preferably has a height higher than that of the above-described communication module installed in the cover and the support in addition to the height of the support and the cover and the support.

In addition, the cover and the base may have a shape of '┌┐', the inner region according to this shape is the communication module is located on the upper surface of the base. Therefore, the inner height of the cover and the support preferably has a height that can accommodate the communication module located on the upper surface of the support.

The support is guided along the rail formed on the upper surface of the groove to be inserted into the groove or exposed to the outside of the groove.

As shown in Table 1, the rail has a groove having a multistage shape on the upper surface thereof, and a guide having a multistage shape inserted into a groove of the rail on one side of the lower surface of the support, which is in contact with the rail. Protuberances are formed.

Therefore, since the guide protrusion is inserted into the groove of the rail, it is not detached in a direction other than the guide direction and can be guided. The shape of the rail and the guide protrusion may be adopted that is conventionally used, and may be changed by adopting the configuration of all the rails that can be pulled or pushed by other manpower.

In addition, the rail described above may be formed at one side of the upper surface of the base that is in contact with the lower surface of the cover and the base. That is, the guide protrusion corresponding to the rail of the support is also formed on the bottom surface of the cover and the support.

And, the rear of the base is formed with a push rod and a pull rod.

The push rod is composed of a cylinder and its end is fixedly connected to the cover and the support.

And the pull bar is 'b' shaped to one end is connected to the lower surface of the push rod, the other end is to form an adhesive means.

The adhesive means may be an air cap, a velcro, or the like, by which the other end of the pulling rod can be fixedly connected to the support. In particular, when the adhesive means is a velcro (female or male), it is possible to configure the velcro (male or female) on one side that the pull rod of the support abuts.

At this time, one end of the pull rod is connected to the lower surface of the push rod, including a concave groove having a predetermined length on the lower surface of the push rod, on the inner upper surface of the concave groove, the same stage as the groove formed in the rail It constitutes a groove having a shape of. And at the end connected to the push rod of the pull rod is formed a fixed end having the same multi-step shape as the guide projection.

The fixed end of the pull rod is coupled to the recessed groove of the push rod to prevent detachment. In general, the fixed end of the pull rod is positioned to be adjacent to the end of the supporting direction of both ends of the recessed groove of the push rod. The coil spring is connected from the inner end wall of the other end to the pull rod or the fixed end.

According to this configuration, when using the communication module located on the upper surface of the groove by removing the initial support from the groove, the DAS, if it is determined that the communication module needs to be switched by the communication switching unit, to control the push rod made of the cylinder do.

Accordingly, the cover and the support, which are coupled to only the rail and the front end of the support and are located in the groove, are lengthened as the push rod is controlled, so that the cover and the support are exposed to the outside of the groove while being positioned to the upper side of the support along the rail of the support. .

At this time, the end of the pull rod connected to the push rod is fixed to the adhesive is fixed, the length control of the push rod is configured so that the cover and the base is controlled by the length of the end more protruding than the base.

The length of the push rod that is controlled and thus lengthened is positioned on the upper side of the base of the cover and the bearing, and at the same time, the end of the pulling rod is adhesively connected and fixed to the bearing. When pushed out to be more protruded, the base is pushed back against the push rod so that the cover and the base are placed in a position more protruding than the base, thereby obstructing the communication range of the communication module located on the upper side of the base. Communication of the communication module located on the upper side of the cover and the base to facilitate the communication. To this end, the cover and the base may be made of a material that interferes with the communication of the communication module.

What has been described above with reference to the drawings describes only the main matters of the present invention, and it is obvious that the present invention is not limited to the configuration of the drawings as long as various designs are possible within the technical scope.

Claims (3)

Communication with the instrument is based on Zigbee,
The communication with the server is performed based on Wi-Fi and LoRa, but the main communication is used for communication with the server, and when an error occurs in the main communication, the sub-communication is used. In the DAS that receives and acquires and transmits the obtained measurement information to the server,
The DAS,
A communication unit including a Zigbee communication module for communicating with the meter, a Wi-Fi communication module for communicating with the server, and a LoRa communication module for communicating with the server;
An A / D converter converting the measurement information received from the measuring instrument into an analog to digital format; And
In the communication with the server, the communication switching unit for switching the main communication to the sub-communication according to the error of the communication further,
The external configuration of the DAS,
For a predetermined box shape, a recess is formed on one surface thereof, and a recess is formed on the recess, and one of the Wi-Fi communication module and the LoRa communication module is installed on the upper surface of the support.
The cover and the base having a shape of '┌┐' is positioned on the upper side of the base, the upper side of the cover and the base, the other one of the Wi-Fi communication module or LoRa communication module is installed,
The support is guided along the rail formed on the upper surface of the groove is inserted into the groove or configured to be exposed to the outside of the groove,
The cover and the base is also guided along the rail formed on the upper surface of the base,
The back of the base is formed with a push rod and a pull rod, the push rod is composed of a cylinder end is fixedly connected to the cover and the base, the pull rod is 'b' shaped at one end of the push rod Connected to the other end so that an adhesive means is formed so that the other end of the pulling rod can be fixedly connected to the support by the adhesive means,
The pull rod connected to the lower surface of the push rod is coupled to the recess formed in the lower surface of the push rod, characterized in that the end of the pull rod on the recess is connected so as to flow, smart DAS with a router function. delete delete

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